//
// Copyright (c) 2015-2022 CNRS INRIA
//

#ifndef __pinocchio_python_geometry_data_hpp__
#define __pinocchio_python_geometry_data_hpp__

#include <eigenpy/memory.hpp>

#include "pinocchio/serialization/geometry.hpp"

#include "pinocchio/bindings/python/utils/address.hpp"
#include "pinocchio/bindings/python/utils/printable.hpp"
#include "pinocchio/bindings/python/utils/copyable.hpp"
#include "pinocchio/bindings/python/utils/std-vector.hpp"
#include "pinocchio/bindings/python/utils/registration.hpp"
#include "pinocchio/bindings/python/serialization/serializable.hpp"

#if EIGENPY_VERSION_AT_MOST(2, 8, 1)
EIGENPY_DEFINE_STRUCT_ALLOCATOR_SPECIALIZATION(pinocchio::GeometryData)
#endif

namespace pinocchio
{
  namespace python
  {
    namespace bp = boost::python;

    /* --- COLLISION PAIR --------------------------------------------------- */
    /* --- COLLISION PAIR --------------------------------------------------- */
    /* --- COLLISION PAIR --------------------------------------------------- */
    struct CollisionPairPythonVisitor
    : public boost::python::def_visitor<CollisionPairPythonVisitor>
    {
      static void expose()
      {
        if (!register_symbolic_link_to_registered_type<CollisionPair>())
        {
          bp::class_<CollisionPair>(
            "CollisionPair", "Pair of ordered index defining a pair of collisions", bp::no_init)
            .def(bp::init<>(bp::args("self"), "Empty constructor."))
            .def(bp::init<const GeomIndex &, const GeomIndex &>(
              bp::args("self", "index1", "index2"), "Initializer of collision pair."))
            .def(PrintableVisitor<CollisionPair>())
            .def(CopyableVisitor<CollisionPair>())
            .def(bp::self == bp::self)
            .def(bp::self != bp::self)
            .def_readwrite("first", &CollisionPair::first)
            .def_readwrite("second", &CollisionPair::second);

          StdVectorPythonVisitor<std::vector<CollisionPair>>::expose("StdVec_CollisionPair");
          serialize<std::vector<CollisionPair>>();
        }
      }
    }; // struct CollisionPairPythonVisitor

    struct GeometryDataPythonVisitor : public boost::python::def_visitor<GeometryDataPythonVisitor>
    {

      /* --- Exposing C++ API to python through the handler ----------------- */
      template<class PyClass>
      void visit(PyClass & cl) const
      {
        cl
          .def(bp::init<const GeometryModel &>(
            bp::args("self", "geometry_model"), "Default constructor from a given GeometryModel."))

          .def_readwrite(
            "oMg", &GeometryData::oMg,
            "Vector of collision objects placement relative to the world frame.\n"
            "note: These quantities have to be updated by calling updateGeometryPlacements.")
          .def_readwrite(
            "activeCollisionPairs", &GeometryData::activeCollisionPairs,
            "Vector of active CollisionPairs")

#ifdef PINOCCHIO_WITH_HPP_FCL
          .def_readwrite(
            "distanceRequests", &GeometryData::distanceRequests,
            "Defines which information should be computed by FCL for distance computations")
          .def_readwrite(
            "distanceResults", &GeometryData::distanceResults, "Vector of distance results.")
          .def_readwrite(
            "collisionRequests", &GeometryData::collisionRequests,
            "Defines which information should be computed by FCL for collision computations.\n\n"
            "Note: it is possible to define a security_margin and a break_distance for a collision "
            "request.\n"
            "Most likely, for robotics application, these thresholds will be different for each "
            "collision pairs\n"
            "(e.g. the two hands can have a large security margin while the two hips cannot.)")
          .def_readwrite(
            "collisionResults", &GeometryData::collisionResults, "Vector of collision results.")
          .def_readwrite(
            "collision_functors", &GeometryData::collision_functors,
            "Vector of collision functors.")
          .def_readwrite(
            "distance_functors", &GeometryData::distance_functors, "Vector of distance functors.")
          .def_readwrite(
            "radius", &GeometryData::radius,
            "Vector of radius of bodies, i.e. the distance between the further point of the "
            "geometry object from the joint center.\n"
            "note: This radius information might be usuful in continuous collision checking")
#endif // PINOCCHIO_WITH_HPP_FCL

          .def(
            "fillInnerOuterObjectMaps", &GeometryData::fillInnerOuterObjectMaps,
            bp::args("self", "geometry_model"), "Fill inner and outer objects maps")
          .def(
            "activateCollisionPair",
            static_cast<void (GeometryData::*)(const PairIndex)>(
              &GeometryData::activateCollisionPair),
            bp::args("self", "pair_id"),
            "Activate the collsion pair pair_id in geomModel.collisionPairs if it exists.\n"
            "note: Only active pairs are check for collision and distance computations.")
          .def(
            "setGeometryCollisionStatus", &GeometryData::setGeometryCollisionStatus,
            bp::args("self", "geom_model", "geom_id", "enable_collision"),
            "Enable or disable collision for the given geometry given by its geometry id with "
            "all the other geometries registered in the list of collision pairs.")
          .def(
            "setActiveCollisionPairs", &GeometryData::setActiveCollisionPairs,
            (bp::arg("self"), bp::arg("geometry_model"), bp::arg("collision_map"),
             bp::arg("upper") = true),
            "Set the collision pair association from a given input array.\n"
            "Each entry of the input matrix defines the activation of a given collision pair.")
          .def(
            "deactivateCollisionPair", &GeometryData::deactivateCollisionPair,
            bp::args("self", "pair_id"),
            "Deactivate the collsion pair pair_id in geomModel.collisionPairs if it exists.")
          .def(
            "deactivateAllCollisionPairs", &GeometryData::deactivateAllCollisionPairs,
            bp::args("self"), "Deactivate all collision pairs.")
#ifdef PINOCCHIO_WITH_HPP_FCL
          .def(
            "setSecurityMargins", &GeometryData::setSecurityMargins,
            (bp::arg("self"), bp::arg("geometry_model"), bp::arg("security_margin_map"),
             bp::arg("upper") = true, bp::arg("sync_distance_upper_bound") = true),
            "Set the security margin of all the collision request in a row, according to the "
            "values stored in the associative map.")
#endif // PINOCCHIO_WITH_HPP_FCL

          .def(bp::self == bp::self)
          .def(bp::self != bp::self)

          ;
      }

      /* --- Expose --------------------------------------------------------- */
      static void expose()
      {
        if (!register_symbolic_link_to_registered_type<GeometryData>())
        {
          bp::class_<GeometryData>(
            "GeometryData", "Geometry data linked to a Geometry Model and a Data struct.",
            bp::no_init)
            .def(GeometryDataPythonVisitor())
            .def(PrintableVisitor<GeometryData>())
            .def(CopyableVisitor<GeometryData>())
            .def(SerializableVisitor<GeometryData>())
            .def(AddressVisitor<GeometryModel>());
        }
      }
    };

  } // namespace python
} // namespace pinocchio

#endif // ifndef __pinocchio_python_geometry_data_hpp__
